Friday, December 28, 2012

Climate Change: Key to Human Evolution

At Olduvai Gorge, where excavations helped to confirm Africa was the cradle of humanity, scientists now find the landscape once fluctuated rapidly, likely guiding early human evolution.These findings suggest that key mental developments within the human lineage may have been linked with a highly variable environment, researchers added.

Olduvai Gorge is a ravine cut into the eastern margin of the Serengeti Plain in northern Tanzania that holds fossils of hominins — members of the human lineage. Excavations at Olduvai Gorge by Louis and Mary Leakey in the mid-1950s helped to establish the African origin of humanity.

A great story about Louis B. Leaky. For his degree at Cambridge, he needed a language requirement. You could prove your language requirement by having another scholar or native speaker testify to your ability. He claimed Swahili as his language. The dons searched all over for someone to certify him. The eventually asked someone from southern Africa if they knew anyone in England who spoke Swahili. He said "Louis Leakey speaks passable Swahili". He got through.

The Great Drying?

To learn more about the roots of humanity, scientists analyzed samples of leaf waxes preserved in lake sediments at Olduvai Gorge, identifying which plants dominated the local environment around 2 million years ago. This was about when Homo erectus, a direct ancestor of modern humans who used relatively advanced stone tools, appeared.

"We looked at leaf waxes, because they're tough, they survive well in the sediment," researcher Katherine Freeman, a biogeochemist at Pennsylvania State University, said in a statement....

Scientists had long thought Africa went through a period of gradually increasing dryness — called the Great Drying — over 3 million years, or perhaps one big change in climate that favored the expansion of grasslands across the continent, influencing human evolution. However, the new research instead revealed "strong evidence for dramatic ecosystem changes across the African savanna, in which open grassland landscapes transitioned to closed forests over just hundreds to several thousands of years," researcher Clayton Magill, a biogeochemist at Pennsylvania State University, told LiveScience.

People are pretty adaptable. They have adapted to virtually every ecosystem, from the arctic ice zone to the rainforests of Africa, Amazonia and Asia. We got that adaptability from our ancestors. They developed it because they needed it to survive the climate swings of the Pliocene and Pleistocene.

The researchers discovered that Olduvai Gorge abruptly and routinely fluctuated between dry grasslands and damp forests about five or six times during a period of 200,000 years.

"I was surprised by the magnitude of changes and the rapid pace of the changes we found," Freeman told LiveScience. "There was a complete restructuring of the ecosystem from grassland to forest and back again, at least based on how we interpret the data. I've worked on carbon isotopes my whole career, and I've never seen anything like this before."

We are not entitled to a pleasant climate. The fact that we now live in one of the nicest periods of the last several million years is not a sign from Gaea that we deserve it for the indefinite future. The climate is always in flux one way or another, and the sooner we accept that the better we can adapt.

"The research points to the importance of water in an arid landscape like Africa," Magill said in a statement. "The plants are so intimately tied to the water that if you have water shortages, they usually lead to food insecurity."

The research team's statistical and mathematical models link the changes they see with other events at the time, such as alterations in the planet's movement.

"The orbit of the Earth around the sun slowly changes with time," Freeman said in statement. "These changes were tied to the local climate at Olduvai Gorge through changes in the monsoon system in Africa."

Earth's orbit around the sun can vary over time in a number of ways — for instance, Earth's orbit around the sun can grow more or less circular over time, and Earth's axis of spin relative to the sun's equatorial plane can also tilt back and forth. This alters the amount of sunlight Earth receives, energy that drives Earth's atmosphere. "Slight changes in the amount of sunshine changed the intensity of atmospheric circulation and the supply of water. The rain patterns that drive the plant patterns follow this monsoon circulation. We found a correlation between changes in the environment and planetary movement."...

You mean the sun influences the climate? That would be news to some climate modelers.

"Early humans went from having trees available to having only grasses available in just 10 to 100 generations, and their diets would have had to change in response," Magill said in a statement. "Changes in food availability, food type, or the way you get food can trigger evolutionary mechanisms to deal with those changes. The result can be increased brain size and cognition, changes in locomotion and even social changes — how you interact with others in a group."

This variability in the environment coincided with a key period in human evolution, "when the genus Homo was first established and when there was first evidence of tool use," Magill said.